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Table of Contents    
Year : 2013  |  Volume : 61  |  Issue : 6  |  Page : 633-638

Categorized hospital charges of acute ischemic stroke according to trial of org 10172 in acute stroke treatment classification

1 Department of Health Services Management, Kyung Hee University School of Management, Seoul, Korea
2 Department of Neurology, Kyung Hee University College of Medicine, Seoul, Korea
3 Department of Humanities and Social Medicine, College of Medicine and Catholic Institute for Healthcare Management, The Catholic University of Korea, Seoul, Korea

Date of Submission17-Sep-2013
Date of Decision27-Sep-2013
Date of Acceptance18-Dec-2013
Date of Web Publication20-Jan-2014

Correspondence Address:
Young Dae Kwon
Department of Humanities and Social Medicine, College of Medicine and Catholic Institute for Healthcare Management, The Catholic University of Korea, 222 Banpo-daero, Seocho-gu, Seoul 137-701
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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/0028-3886.125271

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 » Abstract 

Background: Previous studies have shown that the cost of hospitalization due to stroke is significantly associated with the length of stay, stroke severity and other clinical characteristics, as well as various socio-demographic factors. However, these studies have been rather inconsistent with regard to the influence of stroke subtypes on costs. Aims: This study was examined and compared hospital charges of in-patients with acute ischemic stroke according to the Trial of Org 10172 in Acute Stroke Treatment classification. Materials and Methods: The costs of case of 749 patients with first ever ischemic stroke who were admitted to an academic medical center between January 2006 and December 2008 were analyzed. The hospital charges were compared among the stroke subtypes using Analysis of Variance. Multiple regression analyses were further performed to test the significance of the impact of the stroke subtype after controlling for other variables. Results: The stroke subtype turned out to be a statistically significant factor influencing both the total charge and several categorized charges even after controlling for other contributing factors such as hospital length of stay and stroke severity. Conclusions: This study concludes that the stroke subtype should be included when considering in-patient medical expenses of acute ischemic stroke.

Keywords: Hospital charges, ischemic stroke, stroke subtype, Trial of Org 10172 in acute stroke treatment classification

How to cite this article:
Chang H, Yoon SS, Kwon YD. Categorized hospital charges of acute ischemic stroke according to trial of org 10172 in acute stroke treatment classification. Neurol India 2013;61:633-8

How to cite this URL:
Chang H, Yoon SS, Kwon YD. Categorized hospital charges of acute ischemic stroke according to trial of org 10172 in acute stroke treatment classification. Neurol India [serial online] 2013 [cited 2023 Jun 2];61:633-8. Available from:

 » Introduction Top

The cost of hospitalization due to stroke is significantly associated with the length of stay and clinical characteristics, as well as various socio-demographic factors. [1],[2],[3],[4],[5] Among the clinical factors, the stroke severity has been identified as a major factor in the escalation of costs. [4],[5],[6],[7],[8],[9],[10] The ischemic stroke subtype classifications based on the underlying etiology can influence the treatment methods and process. [11] However, the observation in the earlier studies have been rather inconsistent with regard to the influence of stroke subtype on costs of acute ischemic stroke. [8],[12],[13],[14],[15] This study assessed the hospital charges for acute ischemic stroke according to the stroke subtype and determined whether stroke subtype is a contributor to the hospital charges.

 » Materials and Methods Top

Study population

The study subjects include 749 consecutive patients with first-ever ischemic stroke (within 7 days of stroke onset) admitted to the neurology ward in an academic medical center between January 2006 and December 2008. The hospital is a tertiary care center in the northeastern region of Seoul, Korea and patients are often referred to this hospital from other medical facilities. During the period, 1,302 patients with ischemic stroke were admitted. This included 956 patients with first-ever acute ischemic stroke, of them 891 patients were admitted within 7 days of stroke onset. Ultimately, for the final analysis, 749 patients with all the required clinical information and billing data were included in the study. The diagnoses of ischemic stroke was based on the data obtained from the medical history, neurologic findings, computerized tomography, magnetic resonance imaging, magnetic resonance angiography and other neuroimaging findings. This study was approved by the Institutional Review Board of Kyung Hee University Medical Center, Seoul, Korea. The board permitted a waiver of informed consent because the study involved anonymous data collected for non-research purposes.

Data and variables

The data composed of two components: (1) Socio-demographic and clinical characteristics of each patient; and (2) information on the hospital charges. The data for the first component were collected from the hospital stroke registry database and the data for the second component were retrieved from the hospital's Patient Management Information System.

The variables selected for this study were based on factors showing an effect on the hospital costs in the previous studies. The socio-demographic characteristics included age, gender and health insurance type. The clinical characteristics consisted of the patient's admission route, referral for admission, the time interval between onset and arrival at hospital, risk profile, stroke subtype and stroke severity at admission, treatment modalities, length of hospital stay (LOS) and the destination after discharge.

Stroke severity was evaluated using the National Institutes of Health Stroke Scale (NIHSS) at the time of admission. Stroke subtype categorization was done using Trial of Org 10172 in Acute Stroke Treatment (TOAST) classification by two board certified neurologists. Patients were broadly classified into five categories based on the underlying mechanism of stroke: Large artery atherosclerosis (LAA) small vessel occlusion (SVO), cardioembolism (CE), other determined etiology (OD), or undetermined etiology (UD). The UD type was further classified into three subcategories: Two or more etiologies (2 or more), negative study results (negative) and incomplete study (incomplete).

With regard to the data on medical expenses for each patient collected and analyzed were determined by a fee-for-service schedule based on the type and quantity of services provided. Although patients and the National Health Insurance Service share the payments for services covered by the National Health Insurance or Medical Aid, patients pay in full for services not covered by them. In this study, both insured and uninsured hospital charges were included in the analysis. The various hospital charges were categorized into seven items: Room and board, laboratory tests, imaging studies, oral medication, injections, operations and procedures and others. Six of these seven categories were grouped into three broad categories to simplify analyses and facilitate comparisons with previous studies. The three categories were: (1) Room and board (2) laboratory tests and imaging studies (investigations); and (3) medication, injections and operations and procedures (treatment). "Other charges were excluded from the classification of the three categories due to its complex characteristics.

Statistical analysis

The data analysis was descriptive for the demographic data and clinical characteristics using frequency, percentage, mean and median. The hospital charges among the stroke subtype groups were compared using Analysis of Variance and multiple regression analyses. In the multiple regression analyses, the hospital charges were log-transformed to satisfy the normality and homoscedasticity assumptions of linear regression. The variance inflation factor for each predictor for all given cases were computed to determine the existence of multicollinearity. All analyses were performed using the Statistical Analysis System, version 9.2 (SAS Institute, Cary, NC, USA).

In addition, all hospital charges were adjusted to the 2008 rates and converted into U.S. dollars. Since the fee schedule had been increased over 3 years, from January 2006 to December 2008, the adjustment to the 2008 rates excluded the effect of inflation on medical expense. A conversion rate of 1 U.S. dollar to 995.83 Korean won was utilized; this figure was determined by calculating the average exchange rate over the 3 year duration of the study.

 » Results Top

Sample characteristics

Of the 749 (60.0% males, mean age 64.5 years) patients included in the study, the distribution of stroke subtypes were: LLA 31.9%, SVO 32.7%, CE 10.9%, UD 23.5% and OD 1.0%. Among the UD, in 63 (8.6%) patients there was two or more mechanism for the stroke, in 38 (4.9%) patients no cause could be demonstrated and in 75 (10.0%) patients the stroke work-up was incomplete. The mean NIHSS score at admission was 5.5 and the average LOS was 13.9 days [Table 1].
Table 1: Baseline characteristics of patients with acute ischemic stroke (n=749)

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Total and categorized hospital costs

The mean total hospital cost of care was $4,608 and the per days with charges of $401. Costs of imaging accounted for 30.1% and room and board for 28.2% of total hospital charges. Other charges included: Laboratory tests for 13.6%, injections for 12.8%, medications for 3.5%, operations and procedures for 7.6% [Table 2].
Table 2: Mean value of total and categorized in-patient charges according to stroke subtype (Unit: $)

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Hospital charges according to the stroke subtypes

The total and daily charges were significantly different across stroke subtypes. The highest total charge was for patients with OD stroke ($6,935), followed by patients with CE stroke ($6,510) and the lowest total charge patients with SVO stroke ($3,428). In contrast, the highest daily charge was for patients with UD-incomplete stroke ($499) and these charges was 1.4 times higher than the lowest daily charge for patients with OD stroke ($366).

The categorized analysis also showed significantly different hospital charges across the stroke subtypes. Charges for imaging studies were highest in patients with OD stroke ($2,168), but the proportion in the total charges was highest in patients with SVO stroke (37.1%). Patients with UD-incomplete stroke had both the lowest amount ($1,152) and the lowest proportion (21.5%) of imaging study charges.

The hospital charges according to the three broad categories of the room and board, examination were also different among the subtypes. Hospital charge was the highest for patient with OD stroke, $2,412, and $3,148 respectively for room and board and examination. Cost for treatment was highest for patients with UD-incomplete stroke, $1,919 and for patients with SVO, the charges were lowest $931, $1,728 and $685 in all three categories, respectively.

Effect of the stroke subtypes on hospital charges

The stroke subtype was a statistically significant determining factor for total hospital charges after controlling for other contributing factors. The CE stroke subtype was a significant factor in escalating the in-hospital cost of care, whereas UD-incomplete is a significant factor in reducing the in-hospital cost of care. The other factors associated with significant increasing in the total charges included stroke severity at admission and LOS. Referral at discharge was a significant factor in reducing total charges.

Of the six multiple regression models for categorized charges, the stroke subtype was significant in five models: Room and board, laboratory tests, imaging studies, medication and injection. The CE stroke subtype was significantly associated with higher charges for room and board and laboratory tests and lower for charge for medication. The UD-2 or more stroke subtype was significantly associated with higher charge for imaging studies and UD-negative stroke subtype was associated with lower charges for injection. Moreover, the UD-incomplete stroke subtype was significantly associated with lower charges for room and board, imaging studies and medication. Within the three broad categories, the CE subtype was a significant factor associated with increased charges for room and board and examination and the UD-incomplete stroke subtype was a significant factor associated with decreased charges for room and board and examination [Table 3].
Table 3 Impact of stroke subtype on log transformed total and categorized in-patient charges

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 » Discussion Top

Previous studies have investigated the determinants of the costs of care for patients with ischemic stroke, but influence on the cost of care of the stroke subtype has not been well studied. The study by Yoneda et al. found significant differences across stroke subtypes, [13] whereas Spieler et al. in their study also observed that stroke subtype is not a variable no determining stroke care costs except lacunar stroke. [14] Multiple regression models after controlling for other variables showed inconsistent result. Some studies demonstrated significant differences of in-hospital costs across stroke subtypes, [8],[12] but in the study by Wei et al. [15] there was no impact of stroke subtypes on hospitalization costs.

In this study, the total in-patient charges were significantly different across the stroke subtypes. The hospital charges were highest in OD and CE stroke subtypes and the costs were twice the costs for SVO stroke subtype, which had the lowest charges. In our study the charges for OD stroke subtype was the highest in spite the stroke severity was not high. The high costs in this stroke subtype may be related for LOS, the time needed for comprehensive evaluation to determine the stroke mechanism. These observations are similar to the findings in other studies. [13],[16] The difference in the total charges across stroke subtypes may predominantly be related to the LOS and stroke severity. In the study by Yoneda et al., patients with CE stroke subtype had a longer LOS and a higher stroke severity compared with patients with the SVO stroke subtype. [16] Furthermore, multiple regression analysis after correcting for other variables revealed that the CE stroke subtype associated with increased total charges.

In addition, the stroke subtype appeared to be an important factor that determines the hospital charges in regard to charges of various sub-categories. When the total charges were divided into 3 broad categories, the stroke subtype became a significant factor for the room and board and examination categories, but not for the treatment category. Despite using a 7-charge-category classification, the stroke subtype was found to be a significant factor for the type of laboratory and imaging studies for establishing stroke subtype and also the treatment options, medication and injection. The stroke subtype was an important determinant in the categorized charges and also affected the configuration of the total charges. We surmise that this effect of stroke subtype is due to the costs involved in the comprehensive evaluation of a patient with stroke to determine the stroke subtype. Stroke subtype determination is important for planning acute treatment and secondary treatment.

Imaging is an important component of diagnostic evaluation of a patient with stroke to determine establishing the underlying stroke mechanism of stroke and also in categorizing into stroke subtypes, including. [17] The charges of imaging account for a significant proportion of some subtypes of stroke. Although this study has shown the significantly different charges for various imaging modalities including ultrasound across stroke subtypes, further research is warranted to analyze whether the amount and charge of imaging studies are different according to the stroke subtypes.

The outcomes of ischemic stroke show differences according to the stroke subtype defined by stroke mechanism. [18] The identification of the underlying cause of a stroke is an important factor in determining treatment modalities and guidelines. [11] Currently, there are several classifications for distinguishing between the subtypes of ischemic stroke: TOAST, Causative Classification System and atherothrombosis, small vessel disease, cardiac causes and other uncommon causes. One commonality shared among these classifications is that they mostly rely on the abnormal test results to determine the underlying etiology of the stroke. [17] This implies that, the diagnostic process and test items depend on the underlying etiology and that differences may occur in treatments.

Despite the large sample size, the subjects in this study were recruited from a single center. These conclusions need to be validated in other studies before they can be applied in day-to-day clinical practice. On the other hand, the utilization of charge data, not cost data, may be a shortcoming of this study, considering a potential issue in using charge data as a proxy of costs in efficiency-related research. [19] However, this study focused only on the level of health care utilization and charges that were not related to efficiency. Moreover, the utilization of charge data is considered to be permissible in comparative studies of health care utilization because hospital charges are claimed with charge items in detail. This is exemplified in the fee-for-service system currently used in Korea.

 » References Top

1.Caro JJ, Huybrechts KF, Duchesne I. Management patterns and costs of acute ischemic stroke: An international study. For the stroke economic analysis group. Stroke 2000;31:582-90.  Back to cited text no. 1
2.Diringer MN, Edwards DF, Mattson DT, Akins PT, Sheedy CW, Hsu CY, et al. Predictors of acute hospital costs for treatment of ischemic stroke in an academic center. Stroke 1999;30:724-8.  Back to cited text no. 2
3.Claesson L, Gosman-Hedström G, Johannesson M, Fagerberg B, Blomstrand C. Resource utilization and costs of stroke unit care integrated in a care continuum: A 1-year controlled, prospective, randomized study in elderly patients: The Göteborg 70+Stroke Study. Stroke 2000;31:2569-77.  Back to cited text no. 3
4.Chang KC, Tseng MC. Costs of acute care of first-ever ischemic stroke in Taiwan. Stroke 2003;34:e219-21.  Back to cited text no. 4
5.Chang H, Yoon SS, Kwon YD. Determinants of inpatient charges of acute stroke patients in two academic hospitals: Comparison of intracerebral hemorrhage and cerebral infarction. J Korean Neurol Assoc 2009;27:215-22.  Back to cited text no. 5
6.Reed SD, Blough DK, Meyer K, Jarvik JG. Inpatient costs, length of stay, and mortality for cerebrovascular events in community hospitals. Neurology 2001;57:305-14.  Back to cited text no. 6
7.Tu F, Tokunaga S, Deng Z, Nobutomo K. Analysis of hospital charges for cerebral infarction stroke inpatients in Beijing, people′s republic of China. Health Policy 2002;59:243-56.  Back to cited text no. 7
8.Gioldasis G, Talelli P, Chroni E, Daouli J, Papapetropoulos T, Ellul J. In-hospital direct cost of acute ischemic and hemorrhagic stroke in Greece. Acta Neurol Scand 2008;118:268-74.  Back to cited text no. 8
9.Sekimoto M, Kakutani C, Inoue I, Ishizaki T, Hayashida K, Imanaka Y. Management patterns and healthcare costs for hospitalized patients with cerebral infarction. Health Policy 2008;88:100-9.  Back to cited text no. 9
10.Yoon SS, Chang H, Kwon YD. Itemized hospital charges for acute cerebral infarction patients influenced by severity in an academic medical center in Korea. J Clin Neurol 2012;8:58-64.  Back to cited text no. 10
11.Marnane M, Duggan CA, Sheehan OC, Merwick A, Hannon N, Curtin D, et al. Stroke subtype classification to mechanism-specific and undetermined categories by TOAST, A-S-C-O, and causative classification system: Direct comparison in the North Dublin population stroke study. Stroke 2010;41:1579-86.  Back to cited text no. 11
12.Mamoli A, Censori B, Casto L, Sileo C, Cesana B, Camerlingo M. An analysis of the costs of ischemic stroke in an Italian stroke unit. Neurology 1999;53:112-6.  Back to cited text no. 12
13.Yoneda Y, Okuda S, Hamada R, Toyota A, Gotoh J, Watanabe M, et al. Hospital cost of ischemic stroke and intracerebral hemorrhage in Japanese stroke centers. Health Policy 2005;73:202-11.  Back to cited text no. 13
14.Spieler JF, Lanoë JL, Amarenco P. Costs of stroke care according to handicap levels and stroke subtypes. Cerebrovasc Dis 2004;17:134-42.  Back to cited text no. 14
15.Wei JW, Heeley EL, Jan S, Huang Y, Huang Q, Wang JG, et al. Variations and determinants of hospital costs for acute stroke in China. PLoS One 2010;5:e13041.  Back to cited text no. 15
16.Yoneda Y, Uehara T, Yamasaki H, Kita Y, Tabuchi M, Mori E. Hospital-based study of the care and cost of acute ischemic stroke in Japan. Stroke 2003;34:718-24.  Back to cited text no. 16
17.Ay H. Advances in the diagnosis of etiologic subtypes of ischemic stroke. Curr Neurol Neurosci Rep 2010;10:14-20.  Back to cited text no. 17
18.Kolominsky-Rabas PL, Weber M, Gefeller O, Neundoerfer B, Heuschmann PU. Epidemiology of ischemic stroke subtypes according to TOAST criteria: Incidence, recurrence, and long-term survival in ischemic stroke subtypes: A population-based study. Stroke 2001;32:2735-40.  Back to cited text no. 18
19.Finkler SA. The distinction between cost and charges. Ann Intern Med 1982;96:102-9.19.  Back to cited text no. 19


  [Table 1], [Table 2], [Table 3]


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